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EGFR-mutant transformed small cell lung cancer harbors intratumoral heterogeneity targetable with MEK inhibitor combination therapy
Atsuko Ogino, Amir Vajdi, Xinmeng Jasmine Mu, Navin R. Mahadevan, Kenneth Ngo, Matthew A. Booker, Paloma Cejas, Jeffrey J. Okoro, Man Xu, Benjamin F. Springer, Benjamin K. Eschle, Cameron M. Messier, Stephen Wang, Sudeepa Syamala, Rubii M. Tamen, Anika E. Adeni, Emily S. Chambers, Israel Canadas, Tran Thai, Camilla L. Christensen, Chunxiao Xu, Patrick H. Lizotte, Geoffrey R. Oxnard, Hideo Watanabe, Henry W. Long, Prafulla C. Gokhale, Cloud P. Paweletz, Lynette M. Sholl, Matthew G. Oser, David A. Barbie, Michael Y. Tolstorukov, Pasi A. Jänne
Atsuko Ogino, Amir Vajdi, Xinmeng Jasmine Mu, Navin R. Mahadevan, Kenneth Ngo, Matthew A. Booker, Paloma Cejas, Jeffrey J. Okoro, Man Xu, Benjamin F. Springer, Benjamin K. Eschle, Cameron M. Messier, Stephen Wang, Sudeepa Syamala, Rubii M. Tamen, Anika E. Adeni, Emily S. Chambers, Israel Canadas, Tran Thai, Camilla L. Christensen, Chunxiao Xu, Patrick H. Lizotte, Geoffrey R. Oxnard, Hideo Watanabe, Henry W. Long, Prafulla C. Gokhale, Cloud P. Paweletz, Lynette M. Sholl, Matthew G. Oser, David A. Barbie, Michael Y. Tolstorukov, Pasi A. Jänne
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Research Article Cell biology Oncology

EGFR-mutant transformed small cell lung cancer harbors intratumoral heterogeneity targetable with MEK inhibitor combination therapy

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Abstract

Small cell lung cancer (SCLC) transformation is an incompletely characterized mechanism of resistance to epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs) in EGFR-mutant cancers, limiting development of optimal treatment approaches. Through single-cell RNA sequencing of malignant pleural effusions from patients who underwent SCLC transformation, we identified heterogeneity and diversity, including distinct neuroendocrine (NE) and mesenchymal non-NE cancer cell subsets, which were maintained in patient-derived cell lines. We demonstrate that EZH2 regulates EGFR expression in NE cells where EGFR expression is silenced at baseline. Although neither epigenetic derepression nor exogenous overexpression of mutant EGFR sensitized the cells to EGFR inhibition, non-NE cells exhibited selective sensitivity to MEK inhibitors. Combined MEK inhibitor and chemotherapy effectively inhibited growth of both NE and non-NE cells in vitro and in vivo. Our findings demonstrate that EGFR-mutant SCLC is composed of mixed cell states with distinct therapeutic vulnerabilities and offer a therapeutic strategy to target tumor heterogeneity in highly plastic and treatment-resistant malignancies such as transformed SCLC.

Authors

Atsuko Ogino, Amir Vajdi, Xinmeng Jasmine Mu, Navin R. Mahadevan, Kenneth Ngo, Matthew A. Booker, Paloma Cejas, Jeffrey J. Okoro, Man Xu, Benjamin F. Springer, Benjamin K. Eschle, Cameron M. Messier, Stephen Wang, Sudeepa Syamala, Rubii M. Tamen, Anika E. Adeni, Emily S. Chambers, Israel Canadas, Tran Thai, Camilla L. Christensen, Chunxiao Xu, Patrick H. Lizotte, Geoffrey R. Oxnard, Hideo Watanabe, Henry W. Long, Prafulla C. Gokhale, Cloud P. Paweletz, Lynette M. Sholl, Matthew G. Oser, David A. Barbie, Michael Y. Tolstorukov, Pasi A. Jänne

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Figure 5

Neither endogenous nor exogenous EGFR expression sensitizes DFCI112F cells to EGFR inhibition.

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Neither endogenous nor exogenous EGFR expression sensitizes DFCI112F cel...
(A) Western blot analysis of lysates from indicated cell lines. Blots were probed for phospho-EGFR (Tyr1068), EGFR, and tubulin (loading control). (B) Western blot analysis of NE-tSCLC cells pretreated with DMSO or 10 μmol/L of GSK126 or EPZ6438 for 10 days. Blots were probed for Del-EGFR, β-actin (loading control), H3K27me3, and H3. *Del EGFR antibody (E746-A750del specific, CST) used for this assay did not recognize Del-EGFR protein in 283F (p. L747_A750delinsP). Whole, whole-cell extracts; Nuclear: nuclear extracts. (C) H3K27me3 ChIP-Seq signal traces in EGFR locus in DFCI112F. (D) RNA-Seq and ATAC-Seq signal traces at the EGFR locus after DMSO or EZP6438 (5 µmol/L, 9 days). (E) Western blot analysis of DFCI112F. The cells were pretreated either with DMSO or with 10 μmol/L of EPZ6438 for 10 days and subsequently treated either with DMSO or gefitinib as indicated ± EGF (100 ng/mL, 15 minutes). Blots were probed for phospho-EGFR (Tyr1068), EGFR, and Hsp90 (loading control). (F) Relative viability of DFCI112F cells pretreated with DMSO or EPZ6438 (10 µmol/L, 10 days), then treated with DMSO, gefitinib (1 µmol/L), EPZ6238 (10 µmol/L), or their combination. The cell viability was assessed by CellTiter-Glo (CTG) after 120 hours (n = 6, technical replicates, mean ± SD). (G) Western blot analysis of DFCI112F infected with DOX-inducible EGFP, DOX-inducible exon 19 del-EGFR or DOX-inducible WT-EGFR expressing lentiviruses and grown in the presence or absence of DOX with or without acute EGF stimulation (10 ng/mL for 15 minutes). Blots were probed for phospho-EGFR (Tyr1068), Del-EGFR, total EGFR, and tubulin (loading control). (H) Relative cell viability of DFCI112F infected as described in G. The cells were grown ±DOX and treated with DMSO or 1 μmol/L of gefitinib. The cell viability was assessed by CTG after 120 hours (n = 6, technical replicates, mean ± SD). (I) The schema illustrating EGFR pathway dependency in NE tSCLC cells.

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